Modular Transverse Flux Motor with Integrated Brake (original) (raw)
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There is an impetuous need for easy-to-build electrical machines with high specific thrust for various applications. The paper deals with a new modular variable reluctance tubular machine. It is a transverse flux machine without permanent magnets. Its construction is detailed and the novelty of the proposed structure is emphasized. A sample machine is analyzed by analytical and numerical means. The results of the analyses are validated by testing a laboratory model of the motor.
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A new topology of modular tubular motor is presented. It is a variable reluctance transverse flux machine with no permanent magnets. Firstly its construction is detailed. Some elements of the developed design algorithm are given, too. A sample machine was sized. It was analyzed by means of numeric field computations. The paper also contains a study concerning the influence of several parameters on the behavior of the machine. Finally, some possible applications are discussed. I.
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The paper deals with a new type of the reluctant linear transverse flux machine. Different possibilities to improve the basic structure's performance are outlined. The improved machine structure is compared with that of the initial one by means of FEM-based numerical magnetic field analysis. The flux densities in the two types of machines and their static characteristics (tangential and normal forces vs. displacement) are compared. The laboratory model of the improved machine is also given in the paper.
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The transverse flux motor (TFM) can be an important competitor on the variable-speed-direct-drive domain due to its very high torque density. The transverse flux reluctance motor (TFRM) is the simplest structure of the TFM class. The TFRM's mathematical model is developed in the paper and the motor's dynamic regime is studied via MATLAB/SIMULINK software environment.
C.A.D. of Linear Transverse Flux Motors
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In this paper a new structure of the linear transverse flux machine will be presented. It is a combination of a hybrid linear stepper motor and of a linear transverse flux machine with permanent magnets. The design algorithm of the proposed structure will be presented in detail. Upon this algorithm a motor required by a specific application was designed. Several programming packages were used during the design procedure.